KR100468545B1 - Method for one-way link connetion of As hoc network and its program stored recording medium - Google Patents

Abstract

The present invention relates to a method for controlling a unidirectional link connection and a recording medium in which a program is stored in a mobile ad hoc network. To this end, the present invention transmits mobile node by including a transmission power information in a beacon message that is periodically transmitted and transmits the information. Each mobile node detects a unidirectional link, maintains surplus power information to the corresponding node, and provides connectivity of a unidirectional link to a higher layer through broadcasting and filtering using surplus power information. It is possible to accurately detect the unidirectional link generated by using the transmission power loss on the transmission path, transmit the frame generated in the link layer in the reverse direction of the unidirectional link, eliminate the wasted frame, and then Solve inefficient resource usage problems In addition, since the connectivity of the one-way link is provided to the upper layer independently in the link layer, the upper layer is not affected.

Description

Method for one-way link connetion of As hoc network and its program stored recording medium}

The present invention relates to a method for controlling a unidirectional link connection and a recording medium in which a program is stored in a mobile ad hoc network. More particularly, the present invention relates to detecting a unidirectional link caused by a difference in transmission power and providing connectivity of a unidirectional link to a higher layer. The present invention relates to a method for controlling a unidirectional link connection in a mobile ad hoc network, and a recording medium storing the program.

As hoc network is a network composed only of mobile terminals, and most of the medium access control (MAC) protocols are designed on the assumption that all mobile nodes have the same transmission power.

However, the actual ad hoc network consists of various types of devices. These devices can be broadly divided into battery-operated personal portable devices and devices that can be sufficiently powered by their own power.

Above, personal portable devices include laptops, PDAs, mobile phones, etc., and self-powered power supply devices include wireless mobile communication devices attached to tanks, helicopters, armored vehicles, fire trucks, ambulances, and the like.

These devices have different transmit powers due to differences in power supply and device size due to portability, which results in a unidirectional link. Here, the unidirectional link is a link that can be generated between a node having a high transmission power and a node having a low transmission power, and means a link in which only a node having a high transmission power can transmit data to a node having a low transmission power.

In order to utilize such a unidirectional link, a unidirectional link is detected in a mobile node having a low transmission power, and a frame directed to a source mobile node of a unidirectional link is tunneled using a routing function of a network layer.

The method for detecting a unidirectional link according to the embodiment of the prior art has a neighbor list in a 'Hello' message in which each mobile node has a neighbor node list for nodes in its vicinity, which is periodically broadcast to neighboring neighbor nodes. The node list is transmitted.

In this case, when a 'Hello' message is transmitted between two mobile nodes having a unidirectional link relationship, a node having a low transmit power is not included in the neighbor node list in the 'Hello' message of a node having a high transmit power.

Therefore, a node with low transmit power should receive a 'Hello' message to detect a unidirectional link. Nodes with low transmit power use the information gathered by routing protocols to tunnel the link layer ACK and network layer routing information from the unidirectional link endpoints to the packet source. In this way, a node with a high transmission power can transmit data using a unidirectional link.

As described above, the method for detecting the unidirectional link according to the embodiment of the related art performs communication by using a routing function of an upper layer, which causes a problem of generating frame transmission delay and processing overhead.

SUMMARY OF THE INVENTION The present invention has been made to solve the above problems, and an object of the present invention is to provide a method and a program for controlling a unidirectional link connection in a mobile temporary network for providing connectivity of a unidirectional link occurring in a mobile temporary network from a link layer to a higher layer. It is to provide a stored recording medium.

1 illustrates a wireless ad hoc network in which a unidirectional link occurs due to a difference in transmission power.

FIG. 2 illustrates a process in which a frame is transmitted in a reverse direction of the unidirectional link generated in FIG. 1.

3 is a diagram illustrating an address field change procedure of a frame when a frame is transmitted in a reverse direction of a unidirectional link in a unidirectional link connection control method in a mobile ad hoc network according to an embodiment of the present invention.

4 is a flowchart illustrating a method of controlling a unidirectional link connection in a mobile ad hoc network according to an embodiment of the present invention.

According to the present invention for realizing the object as described above

Features include

Hereinafter, exemplary embodiments of the present invention will be described in detail with reference to the accompanying drawings.

It is apparent to those skilled in the art that the information mentioned in any one embodiment can be applied to other embodiments even if it is not specifically mentioned in the other embodiments.

1 illustrates a wireless ad hoc network in which a unidirectional link occurs due to a difference in transmission power.

As illustrated in FIG. 1, the unidirectional link 130 may be configured as a difference between the transmission range 110 of the mobile node A and the transmission range 111 of the other mobile nodes A, B, C, D, E, and F. Occurs.

In this case, the mobile node A can transmit the frame to the mobile node F, but the mobile node F cannot transmit the frame to the mobile node A.

FIG. 2 illustrates a process in which a frame is transmitted in a reverse direction of the unidirectional link generated in FIG. 1.

In Figure 2, HPa, HPb is a mobile node having a high transmission power transmission range R, LPa ~ LPg is a mobile node having a low transmission power transmission range r.

As shown in FIG. 2, a unidirectional link is generated between HPa and LPc, and frames transmitted from LPc to HPa are received by all mobile nodes within the LPc transmission range.

Each mobile node receiving the frame transmitted by the LPc performs a process of processing the frame at the mobile node in the path when the frame is transmitted in the reverse direction of the unidirectional link.

In the above, the frame transmitted by the LPc is transmitted in the form of convergence to the destination HPa. If there is HPb, the delivery path of the frame is LPc-HPb-HPa, and if there is no HPb, the delivery path of the frame is LPc-LPb-LPa-HPa.

3 is a diagram illustrating an address field change procedure of a frame when a frame is transmitted in a reverse direction of a unidirectional link in a unidirectional link connection control method in a mobile ad hoc network according to an embodiment of the present invention.

3 illustrates a process of changing an address field of a frame when the frame is transmitted through the LPc-LPb-LPa-HPa path when there is no HPb.

When HPa transmits data or control message 250 together with TX Power to LPc, LPc detects a unidirectional link due to a difference in transmission power with HPa.

Subsequently, when a frame is transmitted through the LPc-LPb-LPa-HPa path, the address field 251 of the frame transmitted from LPc to LPb has a maximum source address (Start Address, SA) of LPc and a destination address (Destination Address). , DA) is HPa, the next Recipient Address (RA) is a Broadcast Address (BA), and the Transmitter Address (TA) is LPc.

At this time, the first source address and the final destination address are not changed during frame transmission, the next receiver address is always set to the broadcast address, and the sender address is set to the address of the mobile node transmitting the frame.

Therefore, the address field 252 of the frame transmitted from LPb to LPa and the address field 253 of the frame transmitted from LPa to HPa are the same as the original source address, the final destination address, and the next recipient address, and the sender address is LPb, Changed to LPa.

4 is a flowchart illustrating a method of controlling a unidirectional link connection in a mobile ad hoc network according to an embodiment of the present invention.

As shown in FIG. 4, in the method of the embodiment of the present invention, when a next receiver address of a frame in which each mobile node is transmitted is a broadcast address or an address of the corresponding mobile node, a corresponding frame is received (S1).

When the mobile node receiving the frame receives the beacon message including the transmission power and the minimum reception power, the mobile node calculates the transmission path loss and surplus power of the original source of the frame and the formed link, and stores the calculated result. Add and update to 300. (S2, S3)

The mobile node detects the unidirectional link by using the transmission power information included in the beacon message and maintains surplus power information of the mobile node. That is, the mobile node detects that it is a unidirectional link when the transmit power is smaller than the sum of the path loss power and the minimum received power.

On the other hand, the information added and personalized in the storage 300 is stored in the software state and deleted after a predetermined time elapses.

On the other hand, when the mobile node does not receive the beacon message, it determines whether the relay request field is set in the frame. (S2, S4) When the relay request field is set in the frame, the mobile node determines that the final destination of the frame is the neighbor node. Check if it is included in the list (S5).

The mobile node performs the same processing as the normal frame and ends when the relay request frame is not set in the frame or the final destination of the frame is included in the neighbor node list.

However, when the relay request frame is set in the frame and the final destination is not included in the neighbor node list, the mobile node checks whether there is surplus power information to the final destination of the frame (S5, S6).

In the above, when there is surplus power information to the final destination of the frame, the mobile node determines whether the stored surplus power is larger than the surplus power included in the frame.

At this time, when the stored surplus power is larger than the surplus power included in the frame, the mobile node updates the sender address field and surplus power information of the frame (S8).

As an example of updating the sender address field and surplus power information of the frame in S8, the case where the LPb receives the frame transmitted by the LPc in FIG.

In this way, after updating the sender address field and the surplus power information of the frame, the mobile node reflects the surplus power information at the time of generating the backoff time before transmission of the frame (S9).

As a result of the above, the mobile node transmits the frame so that the frame is relayed first to the mobile node capable of transmitting the frame near the final destination of the frame (S10).

On the other hand, if there is no surplus power information to the final destination of the frame or the surplus power stored in the mobile node is smaller than the surplus power included in the frame, the corresponding frame is deleted (S11). Accordingly, the unidirectional link can be detected. Since duplicate frames are eliminated, transmission power loss can be minimized.

As an example of deleting a duplicate frame in S11, when LPg receives a frame transmitted by the LPc to HPa in FIG. 2, the LPd receives a frame relayed by the LPa in the process of relaying the frame. .

The drawings and detailed description of the invention are merely exemplary of the invention, which are used for the purpose of illustrating the invention only and are not intended to limit the scope of the invention as defined in the appended claims or claims. Therefore, those skilled in the art will understand that various modifications and equivalent other embodiments are possible from this. Therefore, the true technical protection scope of the present invention will be defined by the technical spirit of the appended claims.

In the mobile temporary network according to the present invention, the unidirectional link connection control method and a recording medium storing the program have an effect of accurately detecting the unidirectional link occurring in the mobile temporary network by using the transmission power loss on the transmission path.

In addition, in the mobile temporary network according to the present invention, the unidirectional link connection control method and a recording medium storing the program can transmit a frame generated at the link layer in the reverse direction of the unidirectional link, thereby detecting a unidirectional link. There is an effect of eliminating redundant frames that are wasted, and solving inefficient resource usage problems due to link failure, even though a unidirectional link occurs.

In addition, the method of controlling the unidirectional link connection and the recording medium in which the program is stored in the mobile ad hoc network according to the present invention has the effect of not being affected by the upper layer since the connectivity of the unidirectional link is independently provided in the link layer.

Claims (13)

a) when the mobile nodes constituting the mobile temporary network generate a unidirectional link due to a difference in transmission power, each of the mobile nodes detecting the unidirectional link; b) if a unidirectional link is detected in step a), relaying a frame occurring at a link layer in a reverse direction of the unidirectional link; And c) removing overlapping frame relays among the frames relayed in step b), and providing connectivity of a unidirectional link in the link layer to a higher layer One-way link connection control method in a mobile ad hoc network comprising a. The method of claim 1, Detecting the unidirectional link in step a), A) periodically transmitting, by the respective mobile nodes, transmission power and minimum received power information in a frame; B) calculating path loss power and surplus power occurring on a transmission path by receiving the frame transmitted in step a); And C) detecting the unidirectional link when the transmit power is smaller than the sum of the path loss power and the minimum received power calculated in step b). One-way link connection control method in a mobile ad hoc network comprising a. The method of claim 2, The method of claim 1, wherein the address field of the frame transmitted in step a) includes a maximum source address, a final destination address, a next recipient address, and a sender address. The method of claim 3, wherein In the address field of the frame, the first source address is a mobile node having a low transmission power, a final destination address is a mobile node having a high transmission power, a next receiver address is a broadcast address, and a sender address is an address of a mobile node transmitting a corresponding frame. One-way link connection control method in a mobile ad hoc network, characterized in that. The method of claim 3, wherein And the first source address and the final destination address in the address field of the frame do not change during transmission of the frame. The method of claim 2, Computing the transmission path loss and surplus power in the step b), And adding and updating the calculated transmission path loss and surplus power in the storage. The method of claim 6, The information on the transmission path loss and surplus power added and updated in the storage is stored in the software state and deleted after a predetermined time has elapsed. The method of claim 1, Relaying the frame in the reverse direction of the unidirectional link in step b), The method for controlling unidirectional link connection in a mobile ad hoc network, comprising setting surplus power information and a relay request field in the frame. The method according to claim 1 or 8, In step b), if the frame does not have a relay request field set or if a final destination of the frame is included in the neighbor node list, a general frame processing procedure is performed in a mobile ad hoc network. The method of claim 1, Removing the duplicated frame relay in step c), And comparing the surplus power information included in the frame with surplus power information calculated in each mobile node to delete the frame when the surplus power information of the mobile node is smaller than the surplus power information in the frame. How to control one-way link connection in ad hoc network. The method of claim 1, In step c), providing the connectivity of the unidirectional link in the link layer to a higher layer, When surplus power information included in the frame is compared with surplus power information calculated in each mobile node, when the surplus power information of the mobile node is larger than the surplus power information in the frame, the frame backs off surplus power information ( back off) A method for controlling a unidirectional link connection in a mobile ad hoc network, wherein the mobile node having a high surplus power relays a corresponding frame first by reflecting the generated time. The method of claim 1, In step c), providing the connectivity of the unidirectional link in the link layer to a higher layer, The unidirectional link connectivity control method in the mobile ad hoc network, characterized in that the unidirectional link connectivity is provided through broadcasting and filtering using surplus power information in the link layer. A first function in which each of the mobile nodes detects the unidirectional link when the mobile nodes constituting the mobile ad hoc network generate a unidirectional link due to a difference in transmission power; A second function of relaying a frame occurring in a link layer in a reverse direction of the unidirectional link when the unidirectional link is detected; And A third function of removing overlapping frame relays from the relayed frames and providing connectivity of a unidirectional link in the link layer to a higher layer The recording medium in which the program is stored.